DroneSploit is a drone exploit program that includes various techniques to gain access to it. It targets commercial WiFi-based drones that first appeared in early December.
Theoretically, drones are computers that "fly" and like all computers, they can be vulnerable to attacks. They may also contain a significant number data which could be vulnerable to cyber risks. Understanding these risks can help you better secure your drone and prevent loss of data or assets.
The framework consists of old and new types of attack against a variety of multiple drones, such as passive and active surveillance, deauth attacks and frameworks to break into drone-controller circuits. The goal is to automate the whole process and simply carry out and display the results in real time.
The framework is still limited in terms of hackable drone models that are WiFi-based (eg AR Drone, DJI Tello, Mavic Mini) but not RF-based drones (DJI Phantom 4, Mavic Pro, etc. .), but the goal is to accumulate so many exploits that it makes it easy to access vulnerable drones. By standard standards better safetyof information, seeks to inform users of the risks and perform simulated attacks against their own systems in order to better protect them.
For drones that allow wireless access points (WAPs) and associated passwords to be modified, you should adjust them before flights. Turn off open connectivity and make sure networks are protected with up-to-date encryption standards. Where possible, use MAC filtering to ensure that only your trusted devices can connect. Check your drones action policy for what happens when it loses connectivity deviceand document the process for any unexpected actions it may take.
Installation:
This project is available in PyPi and can simply be installed using Pip:
root @ kali: ~ # pip3 install dronesploit
Basic functions:
Interface
Modules
This is an example of how DroneSploit works, aiming to change that code access or the SSID of a specific drone model.